Time division multiplexing of distributed downhole sensing systems

What is claimed is: 1. A downhole fiber optic interrogation system comprising: a fiber optic control system; a first sensing system; a second sensing system; a first optical fiber disposed within a first well; a second optical fiber disposed within one of the first well and a second well, wherein each of the first and second sensing systems are operably connected to each of the first and second optical fibers; and an optical switch arranged between the first and second optical fibers and the first and second sensing systems, wherein the fiber optic control system is configured to perform time division multiplex control of the optical switch such that, at a first instance, the first sensing system is operably connected to the first optical fiber and the second sensing system is connected to the second optical fiber, and at a second instance, the second sensing system is operably connected to the first optical fiber and the first sensing system is [[not]] connected to the second optical fiber, wherein, at the first instance, the first sensing system and the second sensing system are configured to simultaneously interrogate the respective first and second optical fiber and, at the second instance, the first sensing system and the second sensing system are configured to simultaneously interrogate the respective second and first optical fiber. 2. The downhole fiber optic interrogation system of claim 1 , wherein each of the first optical fiber and the second optical fiber are disposed down a single well. 3. The downhole fiber optic interrogation system of claim 1 , further comprising four additional optical fibers, wherein the fiber optic control system is configured to control the optical switch such that the first sensing system operably connects to a first of the six optical fibers and the second sensing system operably connects to a second of the six optical fibers. 4. The downhole fiber optic interrogation system of claim 1 , further comprising a plurality of additional optical fibers, wherein each optical fiber of the plurality of additional optical fibers is disposed down a different well, and wherein each optical fiber of the plurality of optical fibers is connected to the optical switch. 5. The downhole fiber optic interrogation system of claim 1 , wherein the first sensing system is a distributed temperature sensor system and the second sensing system is a distributed acoustic sensor. 6. The downhole fiber optic interrogation system of claim 1 , wherein the first sensing system comprises a first source for transmitting light into a selected optical fiber through the optical switch and a first detector arranged to detect a reflected light through the selected optical fiber. 7. The downhole fiber optic interrogation system of claim 6 , further comprising a first directional optical component arranged between the optical switch and the first source and between the optical switch and the first detector. 8. The downhole fiber optic interrogation system of claim 6 , wherein the second sensing system comprises a second source for transmitting light into the selected optical fiber through the optical switch and a second detector arranged to detect a reflected light through the selected optical fiber. 9. The downhole fiber optic interrogation system of claim 8 , further comprising a second directional optical component arranged between the switch and the first source and between the optical switch and the first detector. 10. The downhole fiber optic interrogation system of claim 1 , wherein the optical switch and an M×N switch, wherein M is a number of sensing systems connected to the optical switch and N is a number of optical fibers connected to the optical switch. 11. The downhole fiber optic interrogation system of claim 1 , wherein the fiber optic control system comprises shared electronics to control, demodulate, calculate, and provide an interface network for both the first sensing system and the second sensing system. 12. A method for interrogating at least two optical fibers disposed downhole, wherein each optical fiber is disposed down a different well, the method comprising: operably connecting a fiber optic control system, a first sensing system, a second sensing system, and an optical switch to the at least two optical fibers; switching which of the first sensing system and the second sensing system is operably connected to a respective one optical fiber of the two optical fibers through the optical switch through time division multiplex control; simultaneously, at a first instance, interrogating a first optical fiber of the at least two optical fibers using the first sensing system and interrogating a second optical fiber of the at least two optical fibers using the second sensing system; and simultaneously, at a second instance, interrogating the first optical fiber of the at least two optical fibers using the second sensing system and interrogating the second optical fiber of the at least two optical fibers using the first sensing system. 13. The method of claim 12 , wherein the first sensing system is a distributed temperature sensor system and the second sensing system is a distributed acoustic sensor. 14. The method of claim 12 , further comprising: transmitting light from a first light source into a selected optical fiber of the at least two optical fibers through the optical switch; and detecting, at a first detector, a reflected light through the selected optical fiber. 15. The method of claim 14 , wherein the second concing cyctom compricoc a cocond courco further comprising: transmitting light, from a second light source, into a second selected optical fiber of the at least two optical fibers through the optical switch; and detecting, at a second detector, a reflected light through the second selected optical fiber. 16. The method of claim 12 , wherein the optical switch and an M×N switch, wherein M is a number of sensing systems connected to the optical switch and N is a number of optical fibers connected to the optical switch.